Hormonal Control of Blood Viscosity

Sloop, Gregory D; Pop, Gheorghe; Weidman, Joseph J; St. Cyr, John A

doi:10.7759/cureus.55237

Cureus

2024

DOI: 10.7759/cureus.55237

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Hormonal Control of Blood Viscosity

Gregory D Sloop,

Gheorghe Pop,

Joseph J Weidman

et al.

Abstract: The hemodynamic milieu differs throughout the vascular tree because of varying vascular geometry and blood velocities. Accordingly, the risk of turbulence, which is dictated by the Reynolds and Dean numbers, also varies. Relatively high blood viscosity is needed to prevent turbulence in the left ventricle and aorta, where high-velocity blood changes direction several times. Low blood viscosity is needed in the capillaries, where erythrocytes pass through vessels with a diameter smaller than their own. In addit… Show more

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2024

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Cited by 3 publications

References 26 publications

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Interplay of mitochondrial calcium signalling and reactive oxygen species production in the brain

Angelova,

Abramov

2024

Biochemical Society Transactions

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Intracellular communication and regulation in brain cells is controlled by the ubiquitous Ca2+ and by redox signalling. Both of these independent signalling systems regulate most of the processes in cells including the cell surviving mechanism or cell death. In physiology Ca2+ can regulate and trigger reactive oxygen species (ROS) production by various enzymes and in mitochondria but ROS could also transmit redox signal to calcium levels via modification of calcium channels or phospholipase activity. Changes in calcium or redox signalling could lead to severe pathology resulting in excitotoxicity or oxidative stress. Interaction of the calcium and ROS is essential to trigger opening of mitochondrial permeability transition pore — the initial step of apoptosis, Ca2+ and ROS-induced oxidative stress involved in necrosis and ferroptosis. Here we review the role of redox signalling and Ca2+ in cytosol and mitochondria in the physiology of brain cells — neurons and astrocytes and how this integration can lead to pathology, including ischaemia injury and neurodegeneration.

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Interplay of mitochondrial calcium signalling and reactive oxygen species production in the brain

Angelova,

Abramov

2024

Biochemical Society Transactions

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The Relationship between Blood Viscosity and Blood Pressure in Normotensive and Spontaneously Hypertensive Rats

Anishchenko,

Sidekhmenova,

Aliev

et al. 2024

J Evol Biochem Phys

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Relationship of blood viscosity and blood pressure in normotensive and spontaneously hypertensive rats

Anishchenko,

Sidekhmenova,

Aliev

et al. 2024

Rossijskij fiziologičeskij žurnal im. I.M. Sečenova

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Increased viscosity of whole blood can make a significant contribution to an increase in total peripheral resistance, disruption of systemic hemodynamics and microcirculation disorders in arterial hypertension. However, changes in blood viscosity (BV) also lead to changes in shear stress on the endothelium, which can affect vascular tone. There have been no studies of the relationship between changes in BV and blood pressure in animals under conditions of arterial hypertension. The purpose of the work was to study the correlation between blood viscosity and blood pressure in normotensive Wistar rats and spontaneously hypertensive rats (SHR) under normal conditions, as well as under conditions of decreased and increased blood viscosity. Reduction/increase of BV was carried out using isovolumic hemodilution/hemoconcentration. Mean arterial pressure (MAP) was recorded using the MP150 system (Biopac Systems, Inc, USA). BV was measured on a Brookfield DV–II+Pro rotational viscometer (Brookfield Engineering Labs Inc., USA) at a shear rate of 450 s-1. In normotensive rats there were no statistically significant correlations between the initial values of BV and MAP. After isovolumic hemodilution or hemoconcentration in normotensive rats, statistically significant correlations between BV and MAP were also not found. In SHR, compared with Wistar rats, a significant positive statistical relationship of moderate strength was observed between the initial values of BV and MAP (R = 0.643, p 0.05). In SHR, the identified statistically significant correlations of moderate strength between the values of BV and MAP remained, both after hemodilution (R = 0.530, p 0.05) and after hemoconcentration (R = 0.689, p 0.05). Analysis of correlations shows that in SHR, unlike Wistar rats, changes in blood pressure passively follow changes in blood viscosity, which is probably due to the failure of the mechanisms of endothelium-dependent vasodilation in hypertension.

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Hormonal Control of Blood Viscosity

Cited by 3 publications

References 26 publications

Interplay of mitochondrial calcium signalling and reactive oxygen species production in the brain

Interplay of mitochondrial calcium signalling and reactive oxygen species production in the brain

The Relationship between Blood Viscosity and Blood Pressure in Normotensive and Spontaneously Hypertensive Rats

Relationship of blood viscosity and blood pressure in normotensive and spontaneously hypertensive rats

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